On the Gleason-Kahane-Żelazko theorem for associative algebras
| Autor: | Moshe Roitman, Amol Sasane |
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| Rok vydání: | 2022 |
| Předmět: | |
| DOI: | 10.48550/arxiv.2203.14374 |
| Popis: | The classical Gleason-Kahane-Żelazko Theorem states that a linear functional on a complex Banach algebra not vanishing on units, and such that $Λ(\mathbf 1)=1$, is multiplicative, that is, $Λ(ab)=Λ(a)Λ(b)$ for all $a,b\in A$. We study the GKŻ property for associative unital algebras, especially for function algebras. In a GKŻ algebra $A$ over a field of at least $3$ elements, and having an ideal of codimension $1$, every element is a finite sum of units. A real or complex algebra with just countably many maximal left (right) ideals, is a GKŻ algebra. If $A$ is a commutative algebra, then the localisation $A_{P}$ is a GKŻ-algebra for every prime ideal $P$ of $A$. Hence the GKŻ property is not a local-global property. The class of GKŻ algebras is closed under homomorphic images. If a function algebra $A\subseteq \mathbb F^{X}$ over a subfield $\mathbb F$ of $\mathbb C$, contains all the bounded functions in $\mathbb F^{X}$, then each element of $A$ is a sum of two units. If $A$ contains also a discrete function, then $A$ is a GKŻ algebra. We prove that the algebra of periodic distributions, and the unitisation of the algebra of distributions with support in $(0,\infty)$ satisfy the GKŻ property, while the algebra of compactly supported distributions does not. 20 pages |
| Databáze: | OpenAIRE |
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